scholarly journals CD36 Deficiency Inhibits Retinal Inflammation and Retinal Degeneration in Cx3cr1 Knockout Mice

2020 ◽  
Vol 10 ◽  
Author(s):  
Sophie Lavalette ◽  
Jean-Baptiste Conart ◽  
Sara Touhami ◽  
Christophe Roubeix ◽  
Marianne Houssier ◽  
...  
Keyword(s):  
Retinal Degeneration ◽  
Knockout Mice ◽  
Cd36 Deficiency ◽  
Retinal Inflammation

scholarly journals Minocycline decreases CCR2-positive monocytes in the retina and ameliorates photoreceptor degeneration in a mouse model of retinitis pigmentosa

PLoS ONE ◽  
2021 ◽  
Vol 16 (4) ◽  
pp. e0239108
Author(s):  
Ryo Terauchi ◽  
Hideo Kohno ◽  
Sumiko Watanabe ◽  
Saburo Saito ◽  
Akira Watanabe ◽  
...  
Keyword(s):  
Cell Death ◽  
Retinal Degeneration ◽  
Photoreceptor Cell ◽  
Fluorescent Protein ◽  
Outer Nuclear Layer ◽  
Inhibitory Effect ◽  
Subretinal Space ◽  
Photoreceptor Degeneration ◽  
Retinal Inflammation ◽  
Green Fluorescent

Retinal inflammation accelerates photoreceptor cell death caused by retinal degeneration. Minocycline, a semisynthetic broad-spectrum tetracycline antibiotic, has been previously reported to rescue photoreceptor cell death in retinal degeneration. We examined the effect of minocycline on retinal photoreceptor degeneration using c-mer proto-oncogene tyrosine kinase (Mertk)−/−Cx3cr1GFP/+Ccr2RFP/+ mice, which enabled the observation of CX3CR1-green fluorescent protein (GFP)- and CCR2-red fluorescent protein (RFP)-positive macrophages by fluorescence. Retinas of Mertk−/−Cx3cr1GFP/+Ccr2RFP/+ mice showed photoreceptor degeneration and accumulation of GFP- and RFP-positive macrophages in the outer retina and subretinal space at 6 weeks of age. Mertk−/−Cx3cr1GFP/+Ccr2RFP/+ mice were intraperitoneally administered minocycline. The number of CCR2-RFP positive cells significantly decreased after minocycline treatment. Furthermore, minocycline administration resulted in partial reversal of the thinning of the outer nuclear layer and decreased the number of apoptotic cells, as assessed by the TUNEL assay, in Mertk−/−Cx3cr1GFP/+Ccr2RFP/+ mice. In conclusion, we found that minocycline ameliorated photoreceptor cell death in an inherited photoreceptor degeneration model due to Mertk gene deficiency and has an inhibitory effect on CCR2 positive macrophages, which is likely to be a neuroprotective mechanism of minocycline.

PRCD is Concentrated at the Base of Photoreceptor Outer Segments and is Involved in Outer Segment Disc Formation

2019 ◽  
Author(s):  
Gilad Allon ◽  
Irit Mann ◽  
Lital Remez ◽  
Elisabeth Sehn ◽  
Leah Rizel ◽  
...  
Keyword(s):  
Retinal Degeneration ◽  
Knockout Mice ◽  
Outer Segment ◽  
Mouse Retina ◽  
Cone Photoreceptors ◽  
Photoreceptor Outer Segment ◽  
Photoreceptor Outer Segments ◽  
Outer Segments ◽  
Rod And Cone Photoreceptors ◽  
Disc Formation

Abstract Mutations of the PRCD gene are associated with rod-cone degeneration in both dogs and humans. Prcd is expressed in the mouse eye as early as embryonic day 14. In the adult mouse retina PRCD is expressed in the outer segments of both rod and cone photoreceptors. Immunoelectron microscopy revealed that PRCD is located at the outer segment rim, and that it is highly concentrated at the base of the outer segment. Prcd-knockout mice present with progressive retinal degeneration, starting at 20 weeks of age and onwards. This process is reflected by a significant and progressive reduction of both scotopic and photopic electroretinographic responses, and by thinning of the retina, and specifically of the outer nuclear layer, indicating photoreceptor loss. Electron microscopy revealed severe damage to photoreceptor outer segments, which is associated with immigration of microglia cells to the Prcd-knockout retina, and accumulation of vesicles in the inter-photoreceptor space. Phagocytosis of photoreceptor outer segment discs by the retinal pigmented epithelium is severely reduced. Our data show that Prcd-knockout mice serve as a good model for retinal degeneration caused by PRCD mutations in humans. Our findings in these mice support the involvement of PRCD in outer segment disc formation of both rod and cone photoreceptors. Furthermore, they suggest a feedback mechanism which coordinates the rate of photoreceptor outer segment disc formation, shedding and phagocytosis. This study has important implications for understanding the function of PRCD in the retina, as well as for future development of treatment modalities for PRCD-deficiency in humans.

scholarly journals Ccr2 suppression by minocycline in Cx3cr1/Ccr2-visualized inherited retinal degeneration

2020 ◽  
Author(s):  
Ryo Terauchi ◽  
Hideo Kohno ◽  
Sumiko Watanabe ◽  
Saburo Saito ◽  
Akira Watanabe ◽  
...  
Keyword(s):  
Retinal Degeneration ◽  
Expression Pattern ◽  
Pigment Epithelium ◽  
Retinal Pigment ◽  
Rescue Effect ◽  
Ccr2 Expression ◽  
Retinal Inflammation ◽  
Inherited Retinal Degeneration ◽  
Old Mice ◽  
Cx3cr1 Expression

AbstractRetinal inflammation accelerates photoreceptor cell death (PCD) caused by retinal degeneration. Minocycline, a semisynthetic broad-spectrum tetracycline antibiotic, has previously been reported to show PCD rescue effect in retinal degeneration. The purpose of this study was to assess the effect of minocycline on Cx3cr1 and Ccr2 expression in retinal degeneration. Mertk-/-Cx3cr1GFP/+Ccr2RFP/+ mice, which enabled observation of Cx3cr1- and Ccr2-expression pattern in inherited retinal degeneration, were used to test the effect of minocycline. Minocycline was systemically administered to Mertk-/-Cx3cr1GFP/+Ccr2RFP/+ mice. For observing the effect of minocycline on Cx3cr1 and Ccr2 expression, administration was started on 4-week-old mice and continued for 2 weeks. To assess the PCD rescue effect, minocycline was administered to 6-week-old mice for 2 weeks. The expression pattern of Cx3cr1-GFP and Ccr2-RFP were observed on retinal and retinal pigment epithelium (RPE) flat-mounts. The severity of retinal degeneration was assessed on retinal sections. Minocycline administration suppressed Ccr2 expression in Mertk-/-Cx3cr1GFP/+Ccr2RFP/+ mice as observed in retinal and RPE flat-mounts. On the contrary, Cx3cr1 expression was not affected by minocycline administration. Retinal degeneration is ameliorated in minocycline administered Mertk-/-Cx3cr1GFP/+Ccr2RFP/+ mice. In conclusions, Minocycline suppression of Ccr2 expression correlates to amelioration of retinal degeneration.

scholarly journals GARP2 accelerates retinal degeneration in rod cGMP-gated cation channel β-subunit knockout mice

2017 ◽  
Vol 7 (1) ◽  
Author(s):  
Marci L. DeRamus ◽  
Delores A. Stacks ◽  
Youwen Zhang ◽  
Carrie E. Huisingh ◽  
Gerald McGwin ◽  
...  
Keyword(s):  
Retinal Degeneration ◽  
Knockout Mice ◽  
Cation Channel ◽  
Β Subunit

scholarly journals Visual Contrast Sensitivity Correlates to the Retinal Degeneration in Rhodopsin Knockout Mice

2019 ◽  
Vol 60 (13) ◽  
pp. 4196 ◽  
Author(s):  
Jiaxin Xiao ◽  
Muhammed Yasin Adil ◽  
Karen Chang ◽  
Zicheng Yu ◽  
Lanbo Yang ◽  
...  
Keyword(s):  
Retinal Degeneration ◽  
Contrast Sensitivity ◽  
Knockout Mice ◽  
Visual Contrast ◽  
Visual Contrast Sensitivity

scholarly journals The Oral Iron Chelator Deferiprone Protects Against Systemic Iron Overload–Induced Retinal Degeneration in Hepcidin Knockout Mice

2014 ◽  
Vol 55 (7) ◽  
pp. 4525 ◽  
Author(s):  
Delu Song ◽  
Liangliang Zhao ◽  
Yafeng Li ◽  
Majda Hadziahmetovic ◽  
Ying Song ◽  
...  
Keyword(s):  
Iron Overload ◽  
Retinal Degeneration ◽  
Knockout Mice ◽  
Iron Chelator ◽  
Oral Iron ◽  
Oral Iron Chelator

scholarly journals High dose expression of heme oxigenase-1 induces retinal degeneration through ER stress-related DDIT3

2021 ◽  
Vol 16 (1) ◽  
Author(s):  
Huirong Li ◽  
Bo Liu ◽  
Lili Lian ◽  
Jiajia Zhou ◽  
Shengjin Xiang ◽  
...  
Keyword(s):  
Oxidative Stress ◽  
Cell Death ◽  
Retinal Degeneration ◽  
Knockout Mice ◽  
Photoreceptor Cell ◽  
Heme Oxygenase 1 ◽  
High Dose ◽  
Photoreceptor Degeneration ◽  
Expression Levels ◽  
High Level

Abstract Background Oxidative stress is a common cause of neurodegeneration and plays a central role in retinal degenerative diseases. Heme oxygenase-1 (HMOX1) is a redox-regulated enzyme that is induced in neurodegenerative diseases and acts against oxidative stress but can also promote cell death, a phenomenon that is still unexplained in molecular terms. Here, we test whether HMOX1 has opposing effects during retinal degeneration and investigate the molecular mechanisms behind its pro-apoptotic role. Methods Basal and induced levels of HMOX1 in retinas are examined during light-induced retinal degeneration in mice. Light damage-independent HMOX1 induction at two different expression levels is achieved by intraocular injection of different doses of an adeno-associated virus vector expressing HMOX1. Activation of Müller glial cells, retinal morphology and photoreceptor cell death are examined using hematoxylin-eosin staining, TUNEL assays, immunostaining and retinal function are evaluated with electroretinograms. Downstream gene expression of HMOX1 is analyzed by RNA-seq, qPCR examination and western blotting. The role of one of these genes, the pro-apoptotic DNA damage inducible transcript 3 (Ddit3), is analyzed in a line of knockout mice. Results Light-induced retinal degeneration leads to photoreceptor degeneration and concomitant HMOX1 induction. HMOX1 expression at low levels before light exposure prevents photoreceptor degeneration but expression at high levels directly induces photoreceptor degeneration even without light stress. Photoreceptor degeneration following high level expression of HMOX1 is associated with a mislocalization of rhodopsin in photoreceptors and an increase in the expression of DDIT3. Genetic deletion of Ddit3 in knockout mice prevents photoreceptor cell degeneration normally resulting from high level HMOX1 expression. Conclusion The results reveal that the expression levels determine whether HMOX1 is protective or deleterious in the retina. Furthermore, in contrast to the protective low dose of HMOX1, the deleterious high dose is associated with induction of DDIT3 and endoplasmic reticulum stress as manifested, for instance, in rhodopsin mislocalization. Hence, future applications of HMOX1 or its regulated targets in gene therapy approaches should carefully consider expression levels in order to avoid potentially devastating effects.

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